Introductions of European honeybees have occurred globally, potentially affecting the natural pollination ecology of many plants. Introduced honeybees are now the most frequent visitors to the inflorescences of the self‐compatible, bird‐pollinated Australian shrub Grevillea macleayana and may therefore be expected to have altered the mating system. To examine the degree to which birds continue to play a role in determining the mating system of G. macleayana in this disturbed system, we compared outcrossing rates in open‐pollinated inflorescences with inflorescences from which birds had been selectively excluded. Outcrossing rates were estimated from the microsatellite genotypes of over 100 seeds per population in three populations. Outcrossing rates ( t) in open‐pollinated seeds were surprisingly low (0.062–0.225) and did not vary significantly among the three populations. Nevertheless, outcrossing was significantly lower when birds were excluded (data pooled from all populations). Two lines of evidence suggest that there are temporal fluctuations in outcrossing rate and hence that birds usually have a major effect on the mating system of G. macleayana. First, at one site, t was substantially lower than estimates from an earlier study (0.06 in 1995 cf. 0.85 in 1990). Second, fixation indices based on seeds were high in all populations ( >0.68), whereas values for the established plants ( parental generation) were much lower in two of the three populations (0.06–0.32). Our findings suggest that honeybee activity is so high that the contribution of birds to pollination in G. macleayana is sometimes relatively trivial.
Honey-bees were the most frequent visitors, by an order of magnitude, and excluding vertebrates revealed that bees were removing most of the pollen but deposited fewer pollen grains on stigmas. Birds were more frequent visitors at the site previously found to be outcrossing than the other two sites, and they moved further between plants and visited fewer inflorescences on a plant during a foraging bout than bees did. These characteristics of bird visits to G. macleayana would be sufficient to produce significant variation in outcrossing rates among sites.
Eastern long-necked turtles, Chelodina longicollis, are known to lack heteromorphic sex chromosomes
and to lack temperature-dependent sex determination when incubated under constant conditions.
This study determined whether sex ratios of hatchlings emerging from natural nests of C. longicollis
were different from that expected from constant temperature experiments. Temperatures in the eight
nests monitored varied considerably each day (by 1.7-12.6�C), with eggs at the top of the nest
experiencing the greatest variation (mean range 9.0�C) and eggs at the bottom experiencing least
variation (mean range 5.3�C). Temperatures experienced by the top and bottom eggs differed by as
much as 5.7�C at any one time. No monotonic seasonal trend was evident, but rainfall caused a sharp
drop in nest temperatures. Sex ratios in hatchlings from 14 field nests of C. longicollis did not differ
significantly from 1:1, a result in agreement with previous studies conducted at constant incubation
temperatures in the laboratory.
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